Goniometer coil for radio direction finding systems



Dfi't. 15b, l R j JAMES ETAL GONIOMETER COIL FOR RADIO DIRECTION FINDING SYSTEMS Original Filed Feb. 11, 1958 A TTORNE Y Patented Dec. 15, 1942 GONIUMETER COIL FOR RADIO DIRECTION FINDING SYSTEMS New York, N. Y.

Original application February 11, 1938, Serial No.

189,978, now Patent 1942.

No. 2,282,060, dated May 5, Divided and this application August 12,

1941, Serial No. 406,462. In Great Britain March 19, 1937 1 Claim.

This specification is a division of application Serial No. 189,978, filed February 11, 1938, now Patent No. 2,282,060, dated May 5, 1942.

This invention relates to radio direction finding equipment and more particularly to gcniometer coils for such apparatus.

For a goniometer to be free from octantal error, the essential requirement is that, for a given current in either field winding (fixed winding), the law connecting the E. M. F. induced in the search coil with its angular position must be a pure sine. To avoid other errors it is, of course, necessary for other and usual conditions to be met as well.

In goniometer coils as at present used having field and search coils wound on frameworks of cylindrical shape, with the turns of these windings evenly distributed over about of the periphery of the cylinder it is found that the law of this winding arrangement departs somewhat from a sine. The development of a winding giving a pure sine was based upon the following considerations.

The actual curve obtained was analysed. Its law was found to be closely E=A1 sin 6+A3 sin 30 Turns containing odd harmonics above the 3rd were found to be negligible. Consideration showed that even harmonics could not exist.

It will be seen that if as proposed in the present invention a second winding is put on the search coil former identical to the first but placed at an angle of 60 to it, and the two windings put in series the resulting E. M. F. would be (with the same field current) This means that the third harmonic has disappeared and only the pure sine remains.

Due to the fact that the law is the same, except for the constants, whether the current is flowing in the field winding and the E. M. F. in the search coil is considered, or vice versa, the treatment mentioned of putting on a second winding at 60 to the first can be applied to either the search coil or the field coil. For convenience it is preferred to apply the second winding to the field coil.

The invention may be more readily understood from the particular description made in connection with the accompanying drawing in which:

Fig. 1 illustrates in plan view one form of goniometer in accordance with my invention; and

Fig. 2 is a plan view showing a modified form of field coil in accordance with my invention.

Fig. 1 of the accompanying drawing illustrates a plan end view of one form of goniometer in accordance with our invention. One winding of the goniometer comprises two parts, 5 I, 52, wound on a former F at 60 to one another. The other winding comprises two parts or sections 5|, 52

. also arranged at 60 with respect to one another and at with respect to winding sections 5|, 52. A search coil SC indicated by dash lines is arranged within the field windings.

According to a modification instead of employing a second winding use is made of the general information obtained by the analysis, that a relatively simple distribution of turns on the surface of the supporting former or drum will give a sine law. A re-distribution of conductors (i. e. the number used per slot) based on the distribution which would result if the two windings were used, was found to give the required law. Thus an overall winding resulted which was more simple than the double wound arrangement.

It may be noted that the winding developed has a high maximum co-efficient of coupling-0.75 approximatelya desirable feature in most direction finding equipments and a feature not generally possessed by the usual types of goniometer giving a law only relatively close to a pure sine.

The winding plan for the search coil may re-* main as it was originally in which each slot has the same number of turns. The field windings each have the general arrangement as for the search coil, but the turns per slot are according to a plan found to give the required law as mentioned earlier.

As a typical example, the modification made to the original field winding of the goniometer of an Adcock direction finder is illustrated in Fig. 2 of the accompanying drawing showing only the plan view of the field coil support, and shown by the following field coil winding table. The first column shows the number of the slot considering that slot nearest the centre, or spindle, as number one and numbering outwards away from the center. The remaining columns show the turns wound into the respective slots. Each half of the winding is numbered and treated in the same way.

Turns Turns Slot number original new goniometcr goniometer 1 2 l 2 1 2 1 l 1 1 1 1 1 1 1 1 1 l 1 1 0 1 1 1 0 1 1 1 0 1 1 1 0 1 0 1 0 1 0 One of the advantages of making the modification to the field winding rather than to the search coil is that the inductance of the latter is usually varied according to the wavelength to be covered, and it should therefore remain the simplest possible winding.

The distribution indicated in the table, was arrived at by experiment. If two windings at an angle of are assumed and two conductors in one slot, with currents flowing in them in opposite directions, are further assumed to neutralize each other, it can be shown that the two winding arrangement gives a concentration of eiiective turns towards the centre. Using this information as a guide, a distribution of turns, for a single two-part winding shown in the table, was found after a few trials.

The arrangement of the two complete windings can be seen in Fig. 2. One winding comprises two sections 6|, 62 with the distribution according to the above table. The other right angularly related winding comprises two sections GI, 62 with a similar distribution of the windings. The search coil SC completes the goniometer structure.

What is claimed is:

A radio goniometer for producing a substantially pure sine wave comprising a pair of relatively rotatable frames, a search coil carried by one of said frames, and two field windings carried by the other frame and having their axes arranged substantially at right angles to each other, the turns of each of said field windings being distributed over a substantial portion of its supporting frame and the distribution of turns of each of said field windings being such that the number of turns per unit length increases over substantially the entire length of the winding as the axis of the goniometer is approached.

IVOR REGINALD JOHN JAIWES. CHARLES FREDERICK ALLEN WAGSTAFFE. 

